Assessing vulnerability due to sea-level rise in Maui, Hawai<Emphasis Type="Bold">‘i using LiDAR remote sensing and GIS
Sea-level rise (SLR) threatens islands and coastal communities due to vulnerable infrastructure and populations concentrated in low-lying areas. LiDAR (Light Detection and Ranging) data were used to produce high-resolution DEMs (Digital Elevation Model) for Kahului and Lahaina, Maui, to assess the potential impacts of future SLR. Two existing LiDAR datasets from USACE (U.S. Army Corps of Engineers) and NOAA (National Oceanic and Atmospheric Administration) were compared and calibrated using the Kahului Harbor tide station. Using tidal benchmarks is a valuable approach for referencing LiDAR in areas lacking an established vertical datum, such as in Hawai‘i and other Pacific Islands. Exploratory analysis of the USACE LiDAR ground returns (point data classified as ground after the removal of vegetation and buildings) indicated that another round of filtering could reduce commission errors. Two SLR scenarios of 0.75 (best-case) to 1.9 m (worst-case) (Vermeer and Rahmstorf Proc Natl Acad Sci 106:21527–21532, <CitationRef CitationID="CR27">2009</CitationRef>) were considered, and the DEMs were used to identify areas vulnerable to flooding. Our results indicate that if no adaptive strategies are taken, a loss ranging from $18.7 million under the best-case SLR scenario to $296 million under the worst-case SLR scenario for Hydrologically Connected (HC; marine inundation) and Hydrologically Disconnected (HD; drainage problems due to a higher water table) areas combined is possible for Kahului; a loss ranging from $57.5 million under the best-case SLR scenario to $394 million under the worst-case SLR scenario for HC and HD areas combined is possible for Lahaina towards the end of the century. This loss would be attributable to inundation between 0.55 km<Superscript>2</Superscript> to 2.13 km<Superscript>2</Superscript> of area for Kahului, and 0.04 km<Superscript>2</Superscript> to 0.37 km<Superscript>2</Superscript> of area for Lahaina. Copyright Springer Science+Business Media B.V. 2013
Year of publication: |
2013
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Authors: | Cooper, Hannah ; Chen, Qi ; Fletcher, Charles ; Barbee, Matthew |
Published in: |
Climatic Change. - Springer. - Vol. 116.2013, 3, p. 547-563
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Publisher: |
Springer |
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